IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0737160
(1985-05-23)
|
발명자
/ 주소 |
- Brooks Edward (Fridley MN)
|
출원인 / 주소 |
- Houton Manufacturing Co., Inc. (Minneapolis MN 02)
|
인용정보 |
피인용 횟수 :
10 인용 특허 :
7 |
초록
▼
An axially compact brake is disclosed according to the teachings of the present invention as being spring engaged and fluid released for rotationally controlling an electric motor shaft for driving a machine, robot, or other apparatus component. The brake includes a housing formed by an air-chamber
An axially compact brake is disclosed according to the teachings of the present invention as being spring engaged and fluid released for rotationally controlling an electric motor shaft for driving a machine, robot, or other apparatus component. The brake includes a housing formed by an air-chamber housing portion and an annular plate. The air-chamber housing portion includes a friction interface disc and an axial cylindrical member for reciprocally receiving an annular piston to form a fluid pressure cylinder. The annular plate is secured to the cylindrical member and includes torque pins extending into the piston. Coil springs extend axially between the annular plate and the piston. The housing portion has a square outer perimeter defining mounting pads at its corners for sandwiching the housing between the apparatus component and the motor. The brake further includes an input hub having a hexagonal outer cross sectional surface for the slidable receipt of a friction disc capturable between the friction interface disc and the piston. The input hub is supported and rotationally mounted within the housing by the motor shaft and independent of the housing. Thus, the brake is axially short and compact allowing the motor to be mounted closely adjacent to the apparatus component. Additionally, the brake of the present invention can be easily and economically manufactured and assembled.
대표청구항
▼
Brake for rotationally controlling a shaft of an electric motor for driving a machine, robot, or other apparatus component, with the machine, robot or other apparatus component including a base plate, with the base plate including a recess having a diameter, with the electric motor having a casing i
Brake for rotationally controlling a shaft of an electric motor for driving a machine, robot, or other apparatus component, with the machine, robot or other apparatus component including a base plate, with the base plate including a recess having a diameter, with the electric motor having a casing including an annular lip, with the electric motor having mounting flanges including axially extending mounting apertures, comprising, in combination: an air-chamber housing portion having a generally square outer perimeter including corners, with the air-chamber housing portion including a radially oriented, annular disc and a generally axially extending, cylindrical member extending from a first face of the annular disc, with the generally axially extending, cylindrical member being integral with the radially oriented, annular disc, with the generally axially extending, cylindrical member including a first, annular portion having a first, interior cylindrical surface and including a second, annular portion having a second, interior cylindrical surface and a radial, annular surface having an outer diameter, with the first, annular portion being integral with the second, annular portion; mounting pads formed in the corners of the outer perimeter beyond the second, annular portion of the air-chamber housing portion, with the mounting pads including axially extending bores; an annular piston, with the piston including an annular portion having a radially extending interface surface, an axially extending annular flange extending from the radially extending interface surface of the annular portion, with the axially extending annular flange having an outer diameter defining a first surface of the piston, and a radially extending annular flange extending from the annular portion radially outward of the axially extending annular flange from the radially extending interface surface, with the radially extending annular flange having an outer diameter defining a second surface of the piston, with the first surface of the piston having a diameter complementary to and for slidable receipt within the first, interior cylindrical surface of the air-chamber housing portion and the second surface of the piston having a diameter complementary to and for slidable receipt within the second, interior cylindrical surface of the air-chamber housing portion, with a fluid pressure cylinder being formed and defined by the axially extending cylindrical member of the air-chamber housing portion and the piston for the receipt of fluid pressure therein for moving the piston in a first axial direction away from the radially oriented, annular disc of the air-chamber housing portion; a generally flat, annular plate having an axially extending aperture, a thickness, and an outer diameter equal to the outer diameter of the radial, annular surface of the air-chamber housing portion and the diameter of the recess of the machine, robot, or other apparatus component, with the annular plate abutting with and secured to the radial, annular surface of the second, annular portion of the air-chamber housing portion, with the mounting pads extending axially beyond the radial, annular surface of the second, annular portion of the air-chamber housing portion generally one half the thickness of the annular plate, with the mounting pads including a recess having an interior cylindrical surface having a diameter equal to the outer diameter of the radial, annular surface of the air-chamber housing portion for receiving the annular plate; torque pins extending between the annular plate and the piston for preventing the piston from rotating relative to the annular plate and to the air-chamber housing portion; axially extending coil springs extending between the annular plate and the piston for biasing the piston in the opposite axial direction towards the radially oriented, annular disc of the air-chamber housing portion; bolts extending through the mounting apertures of the mounting flanges of the motor and through the axially extending bores of the mounting pads of the air-chamber housing portion and threadably secured into the base plate of the machine, robot, or other apparatus component for mounting the electric motor to the base plate of the machine, robot, or other apparatus component with the air-chamber housing being sandwiched between and supported by the electric motor and the base plate; an input hub attached to and supported by the shaft of the electric motor and independent of the air-chamber housing portion, with the input hub including means for driving the machine, robot or other apparatus component, with the air-chamber housing portion being independent of the input hub, with the input hub being rotatable within the air-chamber housing portion; an interface member slidably mounted but rotatable with the input hub, with the interface member being capturable between the radially oriented, annular disc of the air-chamber housing portion and the radially extending interface surface of the piston for interfacing between the first face of the radially oriented, annular disc of the air-chamber housing portion and the input hub; a lip located on the radially oriented, annular disc opposite to its first face forming a pilot rabbet motor mount for receipt on the annular lip of the casing of the electric motor for insuring that the air-chamber housing portion is centrally and concentrically located with respect to the motor casing and to prevent radial movement between the air-chamber housing portion and the electric motor casing, with the independence of the input hub and the air-chamber housing portion from each other permitting the brake to be axially compact allowing the machine, robot or other apparatus component to be located closely adjacent to the electric motor and preventing a significant increase in the stress load placed upon the shaft of the electric motor due to its support of the input hub.
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